KR940008863B1 - Connecting apparatus for vga - Google Patents

Abstract

The pass through embodying apparatus of a video graphic array (hereinafter, called as VGA) for a personal computer always displays the same color as VGA on a monitor either when the same RAM digital and analog converter is used or when another RAM digital and analog converter is used. In the apparatus which a VGA card and a high resolution graphic adapter are installed simultaneously, it includes a RAM digital and analog converter connected to a feature connector of VGA card by cable; a buffer connected to the outside output port of VGA card; and a switching part.

Description

Video graphics array pass-through implementation

1 (a) and (b) are block diagrams showing a conventional VGA pass-through implementation.

2 is a block diagram showing a VGA pass-through implementing apparatus according to the present invention.

3 is a detailed block diagram illustrating the switching unit of FIG. 2.

* Explanation of symbols for main parts of the drawings

10: VGA card 20: High resolution graphics adapter

30: monitor 11, 21: output port

12: Future connector 13, 23: Slot connector

22: RAMDAC 24: Buffer

25: switching unit MUX1, MUX2: multiplexer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a personal computer that realizes a video graphic array (VGA) and high resolution in one monitor. More specifically, the present invention relates to the same RAM as VGA when implementing a VGA pass through function in a high resolution color graphic adapter. The present invention relates to a VGA pass-through implementation that ensures that the same color as VGA is always displayed on a monitor when using a RAM Digital / Analog Converter.

In general, a VGA card is composed of a Future connector that outputs digital signals, an external output port that outputs analog signals, and a slot connector that fits into a slot on the motherboard of the computer. By using a signal output from a VGA card, a Ramtag is like a digital / analog converter that converts a digital signal into an analog signal, but with additional memory for color data.

1 is a block diagram of a conventional VGA pass-through implementation, in which (a) extracts a signal from the D-sub15 connector, which is the final output port 11 of the VGA card, to the output port 21 of the high resolution graphic adapter 20. By connecting the cable (CA2) to output the VGA signal to the monitor 30, the device simply connects the analog output signal of the VGA card with a cable directly to the monitor, the analog characteristics deteriorate due to attenuation of the signal, the monitor 30 ), There was a problem that noise occurs.

(b) extracts the digital signal of the future connector 12 of the VGA card 10 and connects it to the RAMDAC 22 of the high-resolution graphic adapter 20 with a cable CA1 to monitor the VGA signal converted into an analog signal (30). If the RAM card of the VGA card and the RAM device of the high resolution graphic adapter are the same, the device outputs the same color as VGA because the number of bits of the data and the control port are the same, but when the device is different, the high resolution graphic adapter has more data than the VGA card. Because of the port, the same color as VGA was not displayed on the monitor.

SUMMARY OF THE INVENTION The present invention has been made to solve this problem, and an object of the present invention is to configure a switching unit in a high resolution graphic adapter, and when the VGA card and the high resolution graphic adapter use the same RAM, the signal output through the VGA connector's future connector port. In the case of switching and using different RAM devices, the present invention provides a VGA pass-through implementing apparatus that switches to a signal output through an external output port of a VGA card so that the same color as VGA is always displayed on a monitor.

In order to achieve the above object, a feature of the present invention is that a VGA card and a high resolution graphic adapter are simultaneously installed in a personal computer, and a VGA pass-through implementing apparatus for realizing a VGA color of a VGA card to a monitor through the high resolution graphic adapter is provided. Ramdack, which is connected to the VGA connector with a cable to process color and converts a digital signal into an analog signal, compensates for the analog signal output from the output port by connecting to a cable to an external output port of the VGA card. A buffer unit for removing the switching unit; and a switching unit for switching to the RAM unit of the high resolution graphic adapter when the VGA card and the high resolution graphic adapter are identical, and switching to the buffer unit when the RAM unit is different, and displaying the same color as the VGA on the monitor. High resolution graphic adapter In the VGA pass-through implementation apparatus which it is included.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a VGA pass-through implementing apparatus according to the present invention, which is composed of a VGA card 10, a high resolution graphic adapter 20, and a monitor 30.

Here, the VGA card 10 includes an external output port 11 for outputting an analog signal, a future connector 12 for outputting a digital signal, a slot connector 13 for inserting into a slot of a motherboard of a personal computer, and the like. It consists of.

In addition, the high resolution graphic adapter 20 may include a RAMDAC 22 to which a future connector 12 of the VGA card 10 is connected through a cable CA1, and an external output port 11 of the VGA card 10. A buffer unit 24 connected via a cable CA2, a switching unit 25 connected to the RAMDAC 22 and the buffer unit 24 and switched according to a case, and a slot of a motherboard of a personal computer. And a slot connector 23 inserted into the slot connector 23.

FIG. 3 is a detailed block diagram of the switching unit 25 of FIG. 2, in which a digital signal output from the future connector 12 of the VGA card is converted by the lambda 22 of the high resolution graphic adapter 20. , G, B signal lines (R _F , G _F , B _F ) are connected to the input terminal, and R, G, B signal lines (R _O , G _O ) output from the external output port 11 of the VGA card 10. , B _O ) is connected to the input terminal through the buffer unit 24 of the high-resolution graphic adapter 20 and the enable signal line (E) and the select signal line (S) are connected to the enable terminal and the select terminal, and R of the output terminal. , G, B signal lines R, G, and B are connected to the first multiplexer MUX1 connected to the monitor 30, and the horizontal / vertical synchronization signal line H _F output from the fuse connector 12 of the VGA card. , V _F), and horizontal / vertical sync signal lines (H _O, V _O) to be output from the external output port 11 of the VGA card 10 is connected to the input stage and the enable A second multiplexer (MUX2) in which the call line (E) and the select signal line (S) are connected to the enable end and the select end, and the horizontal / vertical sync signal lines (H, V) of the output end are connected to the monitor (30). do.

In the present invention configured as described above, the first multiplexer MUX1 of the switching unit 25 is an analog multiplexer for outputting R, G, and B signals, which are analog signals, and the second multiplexer MUX2 is a horizontal / vertical sync signal, which is a digital signal. Digital multiplexer that outputs.

In the external output port 11 of the VGA card 10, analog signals R _O , G _O and B _O signals and digital / horizontal / vertical sync signal lines H _O and V _O are graphic through a table CA2. Output to the buffer unit 24 of the adapter 20, the R _O , G _O , B _O signal through the buffer unit 24 is provided to the input of the first multiplexer (MUX1) of the switching unit 30 and horizontal The vertical synchronization signal lines H _O and V _O are provided as inputs of the second multiplexer MUX2.

In this case, the buffer unit 24 is characterized in that the analog signal output from the external output port 11 of the VGA card 10 is directly output to the output terminal of the high resolution graphic adapter 20 through the cable (CA2) This is a compensation circuit for compensating for this because the noise is worsened.

In the future connector 12 of the VGA card 10, digital signals for R, G, and B signals are output to the RAMDAC 22 of the high resolution graphic adapter 20 through a cable CA1, and R is an analog signal. After converted into _F , G _F , and B _F signals, the horizontal and vertical synchronizing signals H _F and V _F are provided as inputs of the first multiplexer MUX1 and output from the Future connector 12 of the VGA card 10. ) Is a digital signal and is provided to the input of the second multiplexer MUX2 of the switching unit 25 without passing through the RAMDAC 22 of the high resolution graphic adapter 20.

In this case, the first and second multiplexers MUX1 and MUX2 transmit two different R, G and B signals and horizontal / vertical synchronization signals to the monitor 30 by the enable signal E and the select signal S. FIG. To enable the output signal (E) must always maintain a low level, can be connected to the ground terminal to obtain the desired low signal. Then, the output signal R _F , G _F , B _F , H _F , V _F of the future connector 12 of the VGA card and the output signal of the external output port 11 of the VGA card according to the select signal S. Since (R _O , G _O , B _O , H _O , V _O ) is selected, the select signal S can be processed in software.

For example, the RAMDAC 22 of the high resolution graphic adapter 20 is the same as the RAMDAC of the VGA card 10, and makes the select signal S a low signal in the future connector 12 of the VGA card 10. Select the output signal (R _F , G _F , B _F , H _F , V _F ), and if the RAMDAC 22 of the high resolution graphic adapter 20 is different from the RAMDAC of the VGA card 10, the select signal S ) To a high signal so that the signal (R _O , G _O , B _O , H _O , V _O ) output from the external output port 11 of the VGA card 10 is selected, the monitor always has the same VGA color. The color is displayed.

As described above, in the present invention, when the VGA card and the RAM adapter using the high resolution graphic adapter are the same, the signal output from the Future connector of the VGA card is selected and displayed on the monitor. Since the signal output from the external output port of the VGA card is selected and displayed on the monitor, the same color as the VGA is displayed on the monitor without noise, thereby providing a perfect VGA pass-through function.

Claims (2)

In the VGA pass-through device for simultaneously implementing a VGA card and a high resolution graphic adapter on a personal computer and realizing the VGA color of the VGA card to the monitor through the high resolution graphic adapter, a cable (e.g. Ramtag 22 connected to CA1 to process color and converting a digital signal into an analog signal, and an analog output from the output port 11 connected to the output port 11 of the VGA card with a cable CA2. A buffer unit 24 for compensating a signal and removing noise, and the VGA card and the high resolution graphic adapter are switched to the RAM unit 22 of the high resolution graphic adapter 20 when the VGA card and the high resolution graphic adapter are the same. The high resolution graphic adapter 20 is provided with a switching unit 25 so that the same color as VGA is displayed on the monitor 30. Video Graphics Array pass-through device implementation. The switching unit 25 of claim 1, wherein the switching unit 25, R, G, B signal lines (R _F , G _F , B _F ) of the RAMDAC 22 and R, G, B signal lines of the buffer unit 24 (R _O , G _O , B _O ) are connected to the input terminal, enable signal line (E) and select signal line (S) are connected to enable and select stages, and R, G, B signal lines (R, A first multiplexer (MUX1) connected to the monitor (30), a horizontal / vertical signal line ( _HF , _VF ) of the fuser connector (12) of the VGA card, and the buffer unit (24). Horizontal / vertical sync signal lines (H _O , V _O ) are connected to the input terminal, enable signal lines (E) and select signal lines (S) are connected to the enable and select ends, and the horizontal / vertical sync signal lines of the output stage are A video graphic array pass-through implementing device comprising a second multiplexer (MUX2) in which (H, V) is connected to a monitor (30).